Leica Stereo- Fluorescence Systems

Transcript

Leica StereoFluorescence Systems User Manual Manuel d’utilisation Gebrauchsanweisung Manual de empleo Contents Page Leica MZ FLIII fluorescence stereomicroscope Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Safety concept . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Fluorescence applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Components, controls . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Sets of filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Assembly Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Focusing drive, microscope carrier, MZ FLIII optics carrier . . . . . . . . . . . . . . . . . 11 UV protection screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Model 106Z lamp housing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Mercury-vapour lamps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Stray-light protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Collector, heat-protection filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Supply units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Adjusting the mercury-vapour lamp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 EN Operation FLUOIII™ filter system, light stop . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 Adjusting the dioptric setting, focusing, observing . . . . . . . . . . . . . . . . . . . . . . . . . 17 Leica stereo-fluorescence module Components, controls . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 Sets of filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 Assembly Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Focusing drive, microscope carrier, optics carrier . . . . . . . . . . . . . . . . . . . . . . . . . 21 Fluorescence module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 Sets of filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 UV protection screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 Model 106Z lamp housing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Mercury-vapour lamps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Stray-light protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Collector, heat-protection filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Supply units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Adjusting the mercury-vapour lamp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Operation Filter changer, light stop, double-iris diaphragm . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 Adjusting the dioptric setting, focusing, observing . . . . . . . . . . . . . . . . . . . . . . . . . 23 3 Description Safety concept Fluorescence technique Before you set up the instrument and before you fit the fluorescence illuminator, read: • this user manual, observing the notes relating to safety Some substances fluoresce when irradiated with short-wave light. This property is utilized in the fluorescence technique, in which certain structures and features which do not fluorescence can be tagged with a fluorescing dye. An example is greenfluorescing protein (GFP), which is used in molecular biology. • the user manual for your stereomicroscope, observing the notes relating to safety and care. Permitted uses Stereo-fluorescence With Leica fluorescence systems you can complete unprepared fluorescing specimens to be non-destructively studied in three dimensions, manipulated, sorted and recorded. The intense light emitted by the mercury-vapour burner, used in conjunction with selected filter sets, enables even the finest structures to be differentiated and expands the amount of information revealed by the incident-light fluorescence technique. Leica stereo-fluorescence systems are equipped with a special fluorescence illuminator. They are intended for the threedimensional observation of fluorescing objects. They consist of: – a stereomicroscope with stand, binocular tube and eyepieces – an integrated FLUOIII filter system (for MZ FLIII) or a separate stereo-fluorescence module – appropriate filter sets with barrier- and excitation filters, a light stop, and individually-selectable filters Fluorescence stereomicroscope – a UV protection screen The Leica MZ FLIII with 12.5:1 zoom is the high-performance stereomicroscope for fluorescence applications. The patented separate beam path (TriBeam™) for the fluorescence illuminator and the patented filter system (FLUOIII™) together produce excellent fluorescence images. – a lamp housing with high-pressure mercury vapour burner Stereo-fluorescence module The stereo-fluorescence modul can be combined with the Leica stereomicroscope models MS5, MZ6, MZ8, MZ12 and MZAPO, and with older models. User manual The present user manual describes only the functions of the fluorescence illuminator, the use of the filter sets, and the fitting of the fluorescence module. For detailed information about the use of the stereomicroscope, its care and its safety, please refer to those sections of the separate manual M2-143-004 which relate to the Leica MZ12 with 12.5:1 zoom. – a supply unit with power cable. Prohibited uses The use of Leica stereo-fluorescence systems in a different manner from that described in this user manual can lead to injury, malfunction and damage. – Do not fit different plugs or cables – Do not dismantle or modify components unless instructions for doing so are given in the user manual – Components may only be opened by authorized personnel. Place of use Leica stereo-fluorescence systems are intended for use in closed rooms and may not be used outdoors. Responsibilities of person in charge of instrument – Ensure that the Leica stereo-fluorescence systems are operated, maintained and repaired only by authorized and trained personnel – Ensure that personnel who use the instrument have read and understood this user manual and in particular all safety instructions. 4 Servicing and repairs Supply unit – Repairs may only be carried out by Leica-trained service technicians or by technical personnel authorized to do so by the person in charge of the instrument • – Only original Leica spare parts may be used – before opening the lamp housing – Unplug the power cable before opening the supply unit. Touching live circuits can cause injury. – when changing the mercury-vapour burner and other Pull the power plug of the supply unit out from the power socket: – when assembling and dismantling the lamp housing components such as the heat-protection filter or the collector – when servicing the supply unit Legal requirements Adhere to general and local regulations relating to accident prevention and environmental protection. Lamp housing • Never open the lamp housing while the burner is switched on (risk of explosion, UV irradiation, dazzling) Conformity with European Community directive • Leica stereo-fluorescence systems and their accessories are constructed in accordance with the latest technologies and are provided with a statement of conformity with EC requirements. Always allow the lamp housing to cool for at least 15 minutes before opening it (risk of burner exploding) • Never cover the ventilator slots on the lamp housing (risk of fire) EN Mercury-vapour lamp Light source: Safety regulations • Read the user manual and safety directions provided by the manufacturer of the mercury-vapour burner, and particularly those relating to its breakage and to the release of mercury • Before transporting the equipment, remove the mercury-vapour burner and place it in its original packaging. Use the transport peg in place of the burner, to secure movable parts within the lamp housing • When the mercury-vapour burner has reached the end of its nominal working life as indicated by the manufacturer’s information and the time counter on the supply unit, change the discoloured burner (increased risk of explosion) • Leica declines all responsibility for injury and damage resulting from exploding, incorrectly-fitted or incorrectly-used mercury-vapour burners. Safety measures introduced by manufacturer – UV protection screen in front of the specimen plane prevents direct UV radiation from reaching the eyes. – Dummy filter carriers in the unoccupied positions of the rapid filter changer prevent direct UV radiation from reaching the eyes – UV filters in the observation beam paths protect the eyes against UV radiation. – Stray-light protection on the underside of the lamp housing protects the user's hands against UV radiation. Warning UV can damage your eyes. Therefore: – Never look at the light spot on the specimen plane without the UV protection screen in position – Never look into the eyepieces unless there is an excitation filter in the beam path – Always keep dummy filter carriers in the unoccupied positions of the rapid filter changer (for MZ FLIII) – Do not place the specimen on a white or highly-reflective background. 5 Applications Natural science Application Fluorescence filter set Anatomy • Monitoring of capillary flow • GFP, GFP Plus Biology • Gene expression in chicken embryos, fruit flies, threadworms and zebra fish • Fish otoliths marked with alizarine red • Genetic expression through viruses and bacteria which infect plants and animals • GFP, GFP Plus • Green • GFP Plus Biomedicine • Humatic seals on pacemakers • Blue, green Genetics • Cellular detection and protein expression • Sorting and dissection • Monitoring developmental processes • GFP, GFP Plus Neurology • Gap junctions on muscles and nerves • GFP, violet Ophthalmology • Cell development in rats' eyes • GFP, GFP Plus Pharmacy • Drugs • ELI spotting in cell structures • Monitoring of capillary flow with FITC • GFP, GFP Plus • Green • GFP Plus Plants and seeds • Plants, genetic expression, transgenetics • Bacteria detection • GFP, GFP Plus Botany • Plant cells, plant surfaces, soil samples • GFP Plant Hydrology • Water quality (bacterial and other pollutants) • Filtered water • Cell structures in and on the filter membrane • UV • GFP • GFP Parasitology • Detection of bacteria on ticks • GFP, GFP Plus Forestry • Development of environmentally-acceptable methods of pest control (investigation of viruses on pests) • GFP 6 Industry Application Fluorescence filter set Electronics • Solder paste on SMDs • Epoxy resin on SMD plates • Luminescent coating of TV monitor tubes • Quality of polymer castings for embedding integrated circuits • GFP, GFP Plus • GFP, GFP Plus • GFP, GFP Plus • Violet Semiconductors • Positive photo resists (OCG HPR 504) • Negative photo resists • Detection of foreign particles on masks, wafers and • subassemblies • GFP, green • Blue • UV, GFP, GFP Plus • Violet Petrochemicals • Oil inspection • GFP Polymers • Detection of foreign particles • Identification of non-polymerized parts • Examination of beads (polymer pellets used in chemical measurements and analyses) • Blue • UV • GFP, GFP Plus Engineering • Inspection of cemented areas on mechanical or optical components • GFP, violet Metalworking industries • Cracks and surface defects • Detection of contamination on components • Quality control of welds • Fracture analysis • GFP Materials science • Cracks, fractures, welds • Carbon bonding materials; fractures and orientation of carbon fibres • GFP • Violet Bitumen • Quality control for tar and bitumen • GFP Concrete • Cracks and pores • GFP Papermaking • Coating of paper fibres • Investigation of inclusions • GFP • Violet Forensic work • Textile fibres, fingerprints, banknotes, forgeries, body fluids • GFP, GFP Plus Art restoration • Pigments, forgeries • UV Gemmology Quality, value, inclusions • Blue EN 7 Overview Leica MZ FLIII: Its components and controls 1. Choice of stand and of focusing drive (manual or motor-driven) 3c 3e 2. Microscope carrier for Leica MZ FLIII 4a 3a. Leica MZ FLIII optics carrier with third beam path 3b. Integrated FLUOIII filter system 3c. Adapter for light source 3d. Rapid filter changer for any of four sets of filters 3e. Slots for light stop and for filter slide with individually-selectable filter 4a. Leica 106Z lamp housing for 50W or 100W high-pressure mercury vapour burners 8 3b 3d 4b. Stray-light protection 5. Supply units for 106Z lamp housing (not illustrated) 6. UV protection screen with arm 3a 7. Double-iris diaphragm (optional) 4b 2 8. Choice of binocular tube, or video-/phototube (optional) 6 1 8 Filter sets for Leica MZ FLIII Designation Excitation filter Barrier filter GFP fluorescence GFP1 425/60 nm 480 nm GFP Plus fluorescence GFP2 480/40 nm 510 nm GFP plant fluorescence GFP3 470/40 nm 525/50 UV fluorescence UV 360/40 nm 420 nm Violet fluorescence V 425/40 nm 475 nm Blue fluorescence B 470/40 nm 515 nm Green fluorescence G 546/10 nm 590 nm Filter carrier, empty Filter set GFP for LEICA MZ FLIII Excitation Filter (425/60) Barrier Filter (480) 100% T ra n sm issio n Filter sets 50% 0 % 350nm 400nm 500nm 600nm 7 0 0 n m Wavelength EN GFP-SPEK.DRW Filter set GFP Plant for LEICA MZ FLIII Filter set GFP Plus for LEICA MZ FLIII Excitation Filter (480/40) Barrier Filter (510) Excitation Filter (470/40) 50% 0 % 350nm 400nm 500nm 600nm 50% 0 % 350nm 400nm 7 0 0 n m Wavelen gth GFP-PLUS.DRW Filter set UV for LEICA MZ FLIII Excitation Filter (425/40) 7 0 0 n m Wavelength Barrier Filter (475) 100% T ra n sm issio n T ra n sm issio n 600nm Filter set Violet for LEICA MZ FLIII Barrier Filter (420) 100% 50% 0 % 350nm 400nm 500nm 600nm 50% 0 % 350nm 400nm 7 0 0 n m Wavelen gth UV-SPEK.DRW 500nm 600nm 7 0 0 n m Wavelength VIO-SPEK.DRW Filter set Blue for LEICA MZ FLIII Excitation Filter (470/40) Filter set Green for LEICA MZ FLIII Barrier Filter (590) T ra n sm issio n 100% 50% 0 % 350nm 400nm Excitation Filter (546/10) Barrier Filter (515) 100% T ra n sm issio n 500nm GFP-PLNT.DRW Excitation Filter (360/40) BLU-SPEK.DRW Barrier Filter (525/50) 100% T ra n sm issio n T ra n sm issio n 100% 500nm 600nm 7 0 0 n m Wavelen gth 50% 0 % 350nm 400nm 500nm 600nm 7 0 0 n m Wavelength GRE-SPEK.DRW 9 Leica MZ FLIII 5a.Lamp housing 106Z Assembly 1. Incident- or transmitted-light base 5b.Stray-light protection 2a.Manual focusing drive, or 6. Binocular tube 2b.Motorized focusing drive 7. UV protection screen with arm 3. Microscope carrier for Leica MZ FLIII 8. 4 sets of filters 4. Leica MZ FLIII optics carrier with FLUOIII™ filter system 9. Light stop 10. Filter slide for an individually-selectable filter 11. Double-iris diaphragm (optional) 12. Trinocular or HU video-/phototube (optional) 5a 12 12 6 5b 9 10 4 8 2b 3 7 2a 1 10 Leica MZ FLIII UV protection screen ➜ microscope carrier Focusing drive ➜ base of stand 왘 Connect manually-operated or motor-driven focusing drive, complete with column, to base, as described in user manual M2-143-004. Before using the motor focus, you must read the safety directions in the accompanying user manual M2-267-104. 왘 Using a hollow screw, fit the UV protection screen to the Microscope carrier ➜ focusing drive 왘 Fit microscope carrier of Leica MZ FLIII to focusing drive in accordance with user manual M2-143-004. microscope carrier on either the left or the right. Always position the UV protection screen so that the user can never look directly at the light spot (see page 4): EN Optics carrier ➜ microscope carrier The Leica MZ FLIII optics carrier and the FLUOIII filter system form a single unit which was factory-adjusted. Do not try to dismantle it. 왘 Fit the UV protection screen with arm, at the side. 왘 Fit the Leica MZ FLIII optics carrier to the microscope carrier in accordance with the user manual M2-143-004. Additional components 왘 Fit the remaining components, such as binocular tube, eyepieces and optional double-iris diaphragm, to the FLUOIII filter system in accordance with user manual M2-143-004. Video-/phototube 왘 Release the hollow screw. 왘 Adjust the UV protection screen, upwards or downwards. 왘 Tighten the hollow screw. To permit shorter exposure times in fluorescence photography, we recommend you to use the video-/phototube HU with 100% light in the video-/photo beam path. 왘 The video-/photo outlet can be positioned on the right or on the left. 왘 Fit the video-/phototube to the FLUOIII filter system in accor- dance with the user manual for the Leica photomicrography or video system. Double-iris diaphragm The double-iris diaphragm is used to increase the depth of field (see user manual M2-143-004). 왘 Fit the double-iris diaphragm to the FLUOIII filter system. 11 왘 Slacken the Phillips Assembly screws 왘 Carefully extract the Lamp housing socket, complete with burner mount and connecting cable The Leica 106Z lamp housing is equipped. For information about the supply units for the 106Z lamp housing, see page 14. Model 105Z lamp housings, if available, can also be used. Observe the safety regulations on page 5 왘 Slacken the slit-headed screws 왘 Remove the transport peg and keep it for subsequent transport Notes and recommendations • Do not switch on and off more than necessary, because this will shorten the burner life • Hot mercury-vapour burners cannot be ignited again until after they have cooled • If possible, burn-in new mercury-vapour burners by running them continuously for one or two hours • Be very careful when fitting the burner. Do not apply pressure, as it breaks easily • Never touch the glass envelope of the burner with your fingers. Fingerprints later burn in and reduce the light quality. If necessary, carefully remove fingerprints and dust using a cloth damped with alcohol and then wipe dry. 왘 Dispose of old mercury-vapour burners in accordance with environmental regulations. • When a new mercury-vapour burner is fitted, the inscription on the metal mount must be upright. 왘 Carefully insert the mercury-vapour burner into the lower mount 왘 For mercury-vapour burners with seal point: Turn these so Fitting and changing the mercury-vapour burner For the l06Z lamp housing, use the 100W mercury-vapour burner type 307-072.057 or the 50W burner. The mercury-vapour burner is supplied in a separate package. – Units which are unmarked or are marked L1 are for lower currents and higher voltages. that the seal point is at the side of the beam path 왘 Carefully position the flexible power cable on the upper metal mount of the mercury-vapour burner. 왘 Tighten the upper and lower screws with great care – Units marked L2 are for higher currents and lower voltages (see page 14). 왘 Slacken the two Phillips screws 왘 Pull the disconnect plug slightly out without turning it 왘 Flip open the cover 12 왘 Introduce the burner mount, complete with burner, into the rail of the lamp housing. 왘 Tighten the screws 왘 Using the focusing knob, displace the collector: • During this movement, the collector must not touch the flexible power cable. If necessary, bend the cable away Removing the collector and the heat-protection filter The collector and the heat-protection filter can be removed for cleaning or if defective. 왘 Open the lamp housing as described on page 12 and remove the burner socket 왘 Move the reflector fully to the right-hand stop 왘 Carefully close the lamp housing, making sure that the disconnect plug engages the socket 왘 Press in the disconnect plug slightly 왘 Tighten the screws 왘 Push the disconnect plug fully in to the stop without turning it. 왘 Hold the collector and pull out the focusing knob 왘 Extract the collector 왘 Slacken the two screws and remove the heatprotection filter from the collector Lamp housing assemble 왘 Using the Allen key, release the hollow screw 왘 Screw a new heat- 왘 Introduce the lamp housing protection filter into position into the adapter of the fluorescence module and tighten the hollow screw. Replacing the collector 왘 Pull out the focusing knob Stray-light protection There are slots in the lamp housing through which UV light can shine on the user's hands during manipulations beneath the housing. The stray-light protection on the underside of the lamp housing is designed to block this light. 왘 Secure the stray-light 왘 Carefully replace the collector and move it to the left until the focusing knob engages the guide groove 왘 Test the displacement of the collector 왘 Refit the burner socket (page 12) and close the lamp housing. protection with two screws. 13 EN Assembly 3 4 5 Supply unit for lamp housing 106Z with 50W mercury-vapour burner 1. On/off switch 2. Running-time meter 3. Selector for L1/L2 burners 4. Fuse 5. Selector for 50Hz/60Hz 6. Connector for lamp 2 1 6 7 7. Power cable Input type 220V/240V ±10% 220V ~50/60Hz Hg50W L1/L2 Osram no. 0-958 Max. power 320VA The supply unit is intended for power supplies above 220V. To run it on lower voltages a step-down transformer is required (e.g. 230V to 110V). Observe the safety regulations on page 5. 왘 Connect the cable from the lamp housing to the supply unit 왘 Engage “L1” or “L2” in accordance with the inscription on the burner socket (see page 12) 왘 Engage 50Hz or 60Hz 왘 Connect the power cable to the supply unit and to the grid 왘 Make a note of the running-time meter reading. Supply unit for lamp housing 106Z with 100W mercury-vapour burner 2 3 1. On/off switch 2. Pilot lamp LAMPE 1 3. Pilot lamp TEMP 4. Running-time meter 5. Connection for power 6. Fuse holder for two fuses 7. Lamp connection Observe the safety regulations on page 5 왘 Connect the cable from the lamp housing to the supply unit 왘 Secure the lamp cable. Type Input voltage Input frequency Protection class Series no. ebq 100dc 90V to 250V AC, max 265VA 48Hz to 63 Hz IP20 G 34240090 왘 Connect the power cable to the supply unit and to the grid Fuses 왘 Make a note of the running-time meter reading. The fuse holder is secured in the holder with spring clips on both sides. 왘 Insert a screwdriver behind the spring clips and extract the fuse holder. 왘 Insert the fuses (2× T3,15A H250V F1/F2). 14 왘 Refit the fuse holder Adjusting the mercury vapour lamp • This adjustment is important for obtaining a uniform light spot and good-quality fluorescence. 왘 Look into the eyepieces and focus on the cross While adjusting the mirror image, do not project light on to the electrodes for long periods (risk of explosion through overheating) The two electrodes are imaged as an extension of the plane of symmetry of the discharge arc, but are difficult to see. 왘 Using your unaided eye, observe the discharge arc on the paper and bring it into focus with the focusing knob (3) (fig. a) 왘 Using the positioning knobs (1 and 2), displace the discharge arc (fig. b) 왘 Bring the mirror image of the discharge arc into focus with the knob (6) and use the knobs 4 and 5 to position it symmetrically relative to the original image (fig. c) 왘 Switch on the supply unit and wait for two or three minutes • The 100W supply unit emits a whistle • For the 50W burner, the discharge-arc image and its mirror image should touch • For the 100W burner, the discharge-arc image and its mirror image should be superimposed. 왘 Swing out the UV-light excluder (page 21) • Work without the UV-light excluder is only permitted for adjustment, and then only for short periods 왘 Pull out the light stop (see page 16, MZ FLIII and page 22, Fluorescence module). 왘 Using the focusing knob (3), readjust the illuminated field • 왘 MZ FLIII: Turn the filter set in the beam path (page 16). 왘 Stereo-fluorescence module: Insert the excitation filter The discharge arc is visible in the illuminated spot and lies at about 45° to the lines of the cross (fig. a) The illuminated field should now be large, circular and as uniform as possible 왘 Reposition the UV-light excluder correctly (page 21). (page 22). 왘 Mark a cross on a piece of paper and place it in the middle of the illuminated spot 왘 Select the lowest magnification Hg 50W Hg 100W 3 Figs. a: Bringing the discharge arc into focus 1 2 Figs. b: Positioning the discharge arc relative to the cross Figs. c: Focusing and positioning the mirror image of the discharge arc 4 5 6 15 EN Leica MZ FLIII Dummy filter carrier FLUOIII filter system In the dummy filter carrier there are two openings for the observation beam paths instead of the barrier filters. The third path has been closed. Use the dummy filter carrier: – if you are using less than four sets of filters The filter system consists of a rapid filter changer for the barrier- and excitation filters and two slots for a light stop and for a filter slide respectively. Rapid filter changer – if you are working without the fluorescence illuminator for periods of up to 15 seconds. • The rapid filter changer of the Leica MZ FLIII accepts a total of four sets of filters. These are inscribed (see table on page 9). Each filter set consists of two barrier filters for the observation beam paths and one excitation filter for the illumination beam path. To avoid fingerprints on the filters in the filter sets, try to avoid touching them. If fingerprints do occur, remove them with a clean lint-free cloth and pure alcohol. An empty filter carrier is available for individual filter combinations. Do not use the dummy filter carrier to block the light from the mercury-vapour burner for more than 15 seconds, or it will heat up. Use the light stop instead. Light stop The FLUOIII filter system includes a slot for the light stop. In phases where the object is to be examined in e.g. transmitted light instead of under conditions of fluorescence, the light stop is used to block the illumination beam path so that the mercuryvapour burner does not have its life shortened by being switched on and off more than is absolutely necessary (see page 5). 왘 Insert a set of filters into the rapid filter changer so that the inscription (e.g. GFP) is upright and on the right-hand side. Make sure that the shape of the filter set follows the shape of the instrument. 왘 Turn the filter set until it Filter slide Next to the light stop is a slot accepting a filter slide which can hold an individually-selectable filter, e.g. a grey filter. engages. 왘 Insert a total of four sets of filters, or insert dummy filter carriers if the number is less. If you use less than four filter sets, you must insert in the free spaces the dummy filter carriers provided. If you leave spaces unfilled, you risk eye damage from direct UV radiation from the third beam path (see page 5). Working without the fluorescence illuminator 왘 Use the light stop to block the light from the fluorescence illuminator. 왘 Turn the dummy filter carrier in the observation beam path so that there is no barrier filter in position which might cause false colour. 16 왘 Illuminate a flat test object with transmitted light Use or with oblique incident light. 왘 Carry out the dioptric correction as directed in the user MZ FLIII: Bringing the specimen into focus and observing it Observe the safety directions on page 4 and the recommendations on page 5 regarding the use of the mercury-vapour lamp. manual for the stereomicroscope. Observing fluorescence Make sure that the UV protection screen is positioned correctly (page 11). Changing filters In the rapid filter changer, all four positions must be occupied, either with filter sets or with dummy filter carriers (see page 16). The active filter set is always the one with its inscription on the left. EN 왘 Turn the sets of filters until the inscription on the one required is visible on the left. 왘 Turn the required filter set into the beam path (page 16). 왘 Switch on the supply unit (pages 14) and wait for two or three minutes. 왘 Pull out the light stop (page 16). Dioptric correction We recommend you to carry out the dioptric correction either in transmitted light or in incident light: 왘 If the fluorescence illumi- nator is switched on, use the light stop to block the light (page 16). 왘 Using the lowest magnification, observe the object. • This will give you a better overall view and you will be able to locate features of interest more easily. 왘 Refocus slightly if necessary. 왘 Observe the details at higher magnification. Reflexes (hot-spots) 왘 Swing the dummy filter carrier into the beam path (page 16). When the 1.6× planapochromatic objective is used at zoom positions between 0.8 and 1.6, a slight reflex (hot-spot) occurs in the lower part of the field of view; it disappears at higher zoom positions. This reflex does not arise in conjunction with the 1.0× and 0.5× planapochromatic objectives or the achromatic objectives. 17 Overview Outfit with stereo-fluorescence module The components 1 Choice of stand and of focusing drive (manual or motor-driven) 5a Leica 106Z lamp housing for 50W or 100W mercury-vapour burners 5b Stray-light protection 3 Leica MS5, MZ6, MZ8, MZ12 or MZAPO optics carrier 6 Supply unit for 50W or 100W mercury-vapour burner (not illustrated) 4a Leica stereo-fluorescence module with choice of barrier filter 7 UV-light excluder with arm and clamp 4b Filter insert for excitation filter 8 Double-iris diaphragm (optional) 4c Light stop 9 Choice of binocular tube, or optional video-/phototube 2 Microscope carrier 4d Filter holder with an individually-selectable filter 4e Adapter for light source 5a, 5b 9 4e 4a 4b, 4c, 4d 8 3 2 6 7 1 18 Filter sets for stereo-fluorescence module Filter sets Excitation filters Dichromatic beam splitters Barrier filters GFP fluorescence 425/60nm 470nm GG475 GFP-Plus fluorescence 480/40nm 505nm LP 510nm LP GFP-Plant 470/40nm 495nm 525/50nm UV fluorescence 360/40nm 400nm GG420 Violet fluorescence 425/40nm 460nm GG475 Blue fluorescence 470/40nm 505nm OG515 Green fluorescence 546/10nm 565nm OG590 EN 19 Assembly 7 Binocular tube Stereo-fluorescence module 8 Clamp 1 Incident- or transmitted-light base 9 Arm 2a Manual focusing drive, or 10 UV-light excluder 2b Motorized focusing drive 11 Filter carrier 3 Microscope carrier 12 Filterholder for excitation filter 4 Choice of optics carrier 13 Light stop 5 Fluorescence module 14 Filter carrier with an individually-selectable filter 6a 106Z lamp housing 15 Double-iris diaphragm (optional) 6b Stray-light protection 16 HU video-/phototube (optional) 6a 7 6b 15 16 13,14 12 11 5 4 8 20 9 10 Stereo-fluorescence module Focusing drive ➜ base of stand 왘 Connect manually-operated or motor-driven focusing drive, complete with column, to base, as described in user manual M2-143-004. Before using the motor focus, you must read the safety directions in the accompanying user manual M2-267-104. 3 Important: With the illuminator on, insert the filterholder with diaphragm into slide-in unit 3 to avoid being suddenly exposed to excessively bright light (page 22). 왘 Remove the binocular tube. 왘 Loosen the 3 socket-head screws. EN 왘 Remove the cover. For the Leica stereomicroscope models MS5, MZ6, MZ8, MZ12, MZAPO with manual focusing drive, fit the microscope in the upper position on the focusing drive (refer to user manual for stereomicroscope). 왘 Loosen the fastening screw and take out the filter carrier. Fluorescence module ➜ stereomicroscope • • Assemble in the following order without double-iris diaphragm: Optics carrier, fluorescence module, binocular tube or phototube 왘 Insert the desired filter carrier. Fit both of the two guide pins in the fluorescence module into the holes on the filter carrier. Assemble in the following order with double-iris diaphragm: Optics carrier, double-iris diaphragm, fluorescence module, binocular tube or phototube 왘 Align the fluorescence module on the optics carrier so that 왘 Tighten the fastening the adapter for the lamp housing points backwards at about 45° screw securely. 왘 Continue assembling in accordance with the user manual for 왘 Replace the cover and the stereomicroscope (see section “Fitting accessory tubes”) tighten the 3 socket-head screws securely. Video-/phototubes The fluorescence illumination is directed along the left-hand beam path and could cause hot-spots in the image. Therefore: 왘 Position the HU phototube over the right-hand beam path. 왘 Replace the binocular tube. Changing the filter set 왘 Insert a suitable exciter filter (page 22). Removable filter sets that can hold various filters are available for the fluorescence module. A filter set consists of a filter carrier with barrier filter and of a filterholder with excitation filter. If you wish to change the filter set while you are in the middle of a task, leave the illuminator switched on so that you will not have to wait for the lamp to cool (page 12) before continuing. 왘 Take out the filterholder with diaphragm. 왘 Re-adjust the light source (page 15). 21 Assembly Filterholder ➜ fluorescence module Stereo-fluorescence module The dichromatic beam splitter and the barrier filter are built into the fluorescence module in accordance with the configuration (see table, page 19). The excitation filter is supplied in a separate filterholder. UV-light excluder ➜ side-faced column Always position the UV-light excluder so that the user never looks directly at the light spot (page 5) A filterholder with diaphragm is also supplied. This diaphragm can be slid into the illumination beam path if the object should not be illuminated. 왘 Using the clamping screw, secure the clamp on the side-faced column, beneath the focusing drive. 3 1 2 왘 Slacken the central fixing screw. The filter slide on the fluorescence module has space for three filterholders: • with excitation filter (holder 1) 왘 Unfold the arm. • with diaphragm (holder 3) 왘 Tighten the central fixing • with individually-selectable filter, e.g. neutral filter (holder 2). screw. 왘 Secure the arm, complete with connector, to the clamp, on the left or right. Tighten the clamping screw. Double-iris diaphragm The double-iris diaphragm is used to increase the depth of field (see user manual M2-143-004). Also, the stray reflections arising in the left-hand beam path can be minimized with the help of the double-iris diaphragm. The HU video-/phototube already includes a double-iris diaphragm. 왘 Secure the UV-light excluder to the arm. Tighten the clamping screw. Additional assembly instructions 22 Lamp housing pages 12–13 Supply units page 14 Adjusting the mercury-vapour lamp page 15 Use Observation Stereo-fluorescence module • Focusing and observing 왘 Refocus slightly if necessary 왘 First use the lowest magnification to observe the object Observe the safety regulations on page 4 and note the recommendations on page 5 for using the mercury-vapour burner. Position the UV-light excluder correctly (see page 22): You will gain a better overall view and can more easily find interesting features 왘 Observe details at a higher magnification. 왘 Hold the arm 왘 Release the central clamping screw 왘 Position the UV-light EN excluder in front of the objective 왘 Tighten the central clamping screw. Focusing Carry out the dioptric correction and the focusing in accordance with the user manual for the stereomicroscope, either: in transmitted light: 왘 pushing in the filter holder with diaphragm (3) to block the fluorescence illumination (see page 22). Pull the filter holder with diaphragm out again before observing the fluorescence. 3 with the fluorescence illumination: 왘 pulling out the filter holder with diaphragm (3) (see page 22) 왘 Insert the excitation filter (1) (page 22) 3 1 2 왘 Switch on the supply unit (page 14). For the 100W lamp, wait two or three minutes for the whistle signal. 23 Leica Microsystems – the brand for outstanding products Leica, the leading brand for microscopes and scientific instruments, has grown from five brand names with a long tradition: Wild, Leitz, Reichert, Jung and Cambridge Instruments. Leica symbolizes both tradition and innovation. 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